Cylinder with Lock Step M z Precautions on Model Selection Caution Specific Product Precautions Working Principle Find the maximum load speed: V [mm/s] from the load movement time: t [s] and the movement distance: st [mm]. 1.
29.1 EA 7 10.7 15.1 EB 21 26.6 37 EC 8 16.2 17.2 EY 27 36.2 57 FA 46.5 64.8 74.5 S 46.7 67.3 73.2 SD 6.7 17.7 T 7 12 15 TT 5.6 (Max. 11.2) 4.9 (Max. 16.4) 5.9 (Max. 21.9) W 28.6 37.2 51.6 High load shock absorber MY2HT Bore size Stroke H G (Shock absorber stroke) T S TT E SD EY EA EC Stroke adjusting unit Shock absorber FA EB W Applicable cylinder MY2HT16 MY2HT25 MY2HT40 SD 27.3 23.6 24
MK(2) b) Type B mounting (When using the cylinder tube threads) RS Q G RS H A RZQ MI W S CEP1 CE1 CE2 ML2B E t E t C J G5-S Compatible Mounting Bolt Dimensions CV Model Type A mounting Type B mounting E (mm) D: Bolt length (mm) C (mm) Mounting bolt size Mounting bolt size MVGQ MQQTB10-D MQQTB16-D MQQTB20-D MQQTB25-D MQQTB28-D MQQLB10-D MQQLB16-D MQQLB20-D MQQLB25-D MQQLB28-D 8 to 11 M3 x
Step (1) Caution Find the maximum load speed: V (mm/s) from the load movement time: t (s) and the movement distance: st (mm). 1. In order that the originally selected maximum speed is not exceeded, be certain to use a speed controller to adjust the total movement distance of the load so that movement takes place in no less than the applicable movement time.
Step 1 Find the maximum load speed V[mm/s] with formula (1) below. The maximum load speed V[mm/s] is approximately equal to V1 x 1.4 . (1) V: Average load speed [mm/s] V = st/t st: Load transfer distance [mm] t: Load transfer time [s] Find the cylinder bore size. Step 2 1. For vertical mounting 2.
Step 1 Find the maximum load speed V[mm/s] with formula (1) below. The maximum load speed V[mm/s] is approximately equal to V1 x 1.4 . (1) V: Average load speed [mm/s] V = st/t st: Load transfer distance [mm] t: Load transfer time [s] Find the cylinder bore size. Step 2 1. For vertical mounting 2.
Tubing T S Coupler KK S Coupler/Stainless Steel (Stainless Steel 304) KKA Series T TU TH Material Nylon Polyurethane FEP (Fluoropolymer) Modified PTFE (Soft fluoropolymer) Super PFA PFA Metal One-touch Fittings KQB2 Stainless Steel 316 One-touch Fittings KQG2 TD TL TLM Stainless Steel 316 Insert Fittings KFG2 Fluoropolymer Fittings LQ 135 C O N T E N T S HRSH090 Series Inverter Type HRS
Maximum piston speed: 500 mm/s It can be used at 50 to 500 mm/s provided that it is within the allowable kinetic energy range.
Step M z Precautions on Model Selection Caution Find the maximum load speed: V [mm/s] from the load movement time: t [s] and the movement distance: st [mm]. 1.
Piston speed (mm/s) Viewing the chart: Example) The flow rate necessary to operate a 50 cylinder at a speed of 100mm/s is 12l/min.
Refer to page 100 for part numbers. 99 Series LJ1 Options Non-standard Motor Driver Regenerative Absorption Unit/Regenerative Resistor T-nuts for mounting electric actuators Use T-nuts for T-slot mounting of an actuator. When mounting by means of T-nuts alone, the quantity of nuts indicated below should be used as a minimum.
MK(2) b) Type B mounting (When using the cylinder tube threads) RS Q G RS H A RZQ MI W S CEP1 CE1 CE2 ML2B E t E t C J G5-S Compatible Mounting Bolt Dimensions CV Model Type A mounting Type B mounting E (mm) D: Bolt length (mm) C (mm) Mounting bolt size Mounting bolt size MVGQ MQQTB10-D MQQTB16-D MQQTB20-D MQQTB25-D MQQTB28-D MQQLB10-D MQQLB16-D MQQLB20-D MQQLB25-D MQQLB28-D 8 to 11 M3 x
S 1 pc. 3 3 pcs. n n pcs. Mounting type * Only for D and T mounting types. * Pivot bracket is shipped together with the product. * For details, refer to page 400. * For applicable auto switches, refer to the table below.
T2 = [s] L 0.5 V (T1 + T3) V Duty ratio: Ratio of T to T6 T T6 x 100 T = T1 + T2 + T3 + T4 T4 varies depending on the motor type and load. The value below is recommended. = 0.1 + 0.90 + 0.1 + 0.05 = 1.15 [s] 2000 T4 = 0.05 [s] 1000 mm/s2 3000 mm/s2 Step 3 Check the allowable moment. 1500 5000 mm/s2 Refer to Dynamic Allowable Moment graphs (Pages 127 and 128).
When replacing brackets, use the hexagon wrenches shown below. ) m m ( e z i s e r o B t l o B s t a l f s s o r c a h t d i W e u q r o t g n i n e t h g i T 0 4 , 2 3 7 4 2 1 C 8 4 2 3 B M 4 1 . 5 3 6 , 0 5 9 4 2 1 C 8 4 0 5 B M 5 1 1 0 0 1 , 0 8 t o o F 1 5 2 1 C A 8 4 0 8 B M 6 5 2 r e h t O 1 5 2 1 C B 8 4 0 8 B M 32 SMC'S GLOBAL MANUFACTURING, DISTRIBUTION AND SERVICE NETWORK ASIA CHINA
4-O counterbore 2-N through MK(2) X F Stroke Q 2-P Y RS Q G RS H A G D T RZQ U W V L M MI W S 10 (11) 20 (22) H + Stroke B + Stroke A + 2 stroke Workpiece transfer direction CEP1 CE1 32 40 50 RSQB -R Bore size: 32, 40, 50 CE2 Stroke Q F Z 2-P X ML2B S J I C J G5-S W E D T G CV U L V MVGQ 10 (11) 20 (22) M 0.2 E B + Stroke H + Stroke 4-N through 8-O counterbore CC A + 2 stroke RB Built-in
S R 2 mgh F1S S T t m m Nm C m/s kg MK(2) E1 + E2 mgS mgS F1S mgS F1S + mgS RS Q G E 2 2 E1 + E2 E1 + E2 E1 + E2 E1 + E2 E1 + E2 d p F T n t kg RS H A Me 2 2 2 E 2 2 E 2 2 E 2 2 E 2 E m = 20 kg = 0.7 m/s d = 40 mm p = 0.5 MPa n = 20 cycle/min t = 25C rad/s 2.
See the intersection of lateral axis 500mm/s and 63 line, and extend the intersection to left.